CN208517268U - Bend glass molding die oxidation and Curred glass forming machine - Google Patents

Abstract

The utility model provides a kind of bend glass molding die oxidation and Curred glass forming machine, is related to bend glass processing technique field.Bend glass molding die oxidation includes heat insulating box, connecting pipe and nitrogen gas tank；Heat insulating box is interior to be equipped with the seal cavity for placing mold, and heat insulating box is for separating seal cavity and the external world；Heat insulating box is equipped with pipe joint, and pipe joint is connected to seal cavity, and one end of connecting pipe is connect with pipe joint, and the other end of connecting pipe is connect with nitrogen gas tank, and the nitrogen in nitrogen gas tank is passed through to seal cavity.The technical issues of solving in the prior art, air and poorly sealed lattice be full of in glass hot briquetting room.The heat insulating box of the utility model realizes the sealing to seal cavity；Nitrogen is passed through, and realizes the discharge to oxygen in seal cavity.

Description

Bend glass molding die oxidation and Curred glass forming machine

Technical field

The utility model relates to bend glass processing technique fields, more particularly, to a kind of bend glass molding die oxygen Makeup is set and Curred glass forming machine.

Background technique

Bend glass has frivolous performance, transparent cleaning, anti-fingerprint, anti-dazzle, hard, scratch resistant, weatherability good etc. Feature, because of its feature, bend glass can be applied to high-end smartphones and tablet computer, wearable device, instrument board and work It is very widely used on the end products such as industry computer.Wherein, the process flow of bend glass production includes: that engineering, CNC are opened Cleaning and finished product packing after material, imitative type, hot bending, molding, twin polishing, cleaning, AF plated film, plated film, are realized to bend glass Machine-shaping.

Wherein bend glass hot bending technology is that existing plate glass is put into hot bending die, passes through mold upper and lower Heating plate preheats mold and glass, be preheating to after certain temperature need for mold to be pushed to continue on heating station plus Heat heats and softens the glass in mold, then is pushed by mold glass being pressed into required curved shape, realizes to curved surface The hot bending shape of glass.

But the temperature during existing glass hot briquetting inside molding room is very high, poorly sealed lattice, and interior Portion is filled with air, and graphite jig easily aoxidizes under high temperature environment, and the punch-pin and cavity plate flatness for aoxidizing rear mold reduce, out Phenomena such as existing point, causes bend glass after molding phenomena such as point or bubble occur, be unfavorable for the molding of glass.

Utility model content

The purpose of this utility model is to provide a kind of bend glass molding die oxidations, to solve the prior art Present in, the temperature of glass hot briquetting chamber interior is very high, poorly sealed lattice, and inside is filled with air, graphite mo(u)ld The technical issues of tool easily aoxidizes under high temperature environment, and oxidation rear mold is unfavorable for glass molding.

The utility model additionally provides a kind of Curred glass forming machine, existing in the prior art to solve, bend glass The molding die technical problem oxidizable in glass hot briquetting chamber interior.

A kind of bend glass molding die oxidation provided by the utility model, including heat insulating box, connecting pipe And nitrogen gas tank；

It is equipped with the seal cavity for placing mold in the heat insulating box, the heat insulating box is for separating seal cavity and outer Boundary；The heat insulating box is equipped with pipe joint, and the pipe joint is connected to seal cavity, one end of the connecting pipe and Pipe joint connection, the other end of the connecting pipe connect with nitrogen gas tank, the nitrogen in nitrogen gas tank are passed through to seal chamber In vivo.

Further, the heat insulating box includes thermal insulation board, the quantity of the thermal insulation board be it is multiple, multiple thermal insulation boards surround Heat insulating box；

The thermal insulation board includes the first connecting plate, thermal insulation layer and the second connecting plate, first connecting plate and thermal insulation layer Side connection, the other side of the thermal insulation layer is connect with the second connecting plate.

Further, the pipe joint and the junction for the thermal insulation board for being equipped with pipe joint are equipped with sealing element.

Further, two at least opposite thermal insulation boards are equipped with the opening being oppositely arranged.

Further, the opening of the thermal insulation board is equipped with the packaging mechanism for being used to open or encapsulating opening.

It further, further include controller and position sensor；

It further include controller and position sensor；The position sensor is connect with controller, the controller and encapsulation Mechanism connection, the position sensor are used to incude mold heat to be added and heat the position of the mold finished, work as position sensor When sensing the mold outflow seal cavity that mold heat to be added is located in seal cavity and heating finishes, the position sensor hair The number of delivering letters arrives controller, and the controller controls the packaging mechanism and closes.

Further, the quantity of the pipe joint is multiple, and multiple pipe joints are evenly arranged on the outer of the heat insulating box Side.

Further, the connecting pipe is equipped with flow control valve.

Further, the heat insulating box is equipped with for observing the see-through window inside heat insulating box.

The utility model also provides a kind of Curred glass forming machine, including body and bend glass shaping mould as described above Has oxidation；

Installation position is equipped in the body, the bend glass molding die oxidation is mounted on installation position.

Bend glass molding die oxidation provided by the utility model, interior be equipped with of the heat insulating box place mold Seal cavity, realize heating and softening to mold, the heat insulating box is used to separate the external world with seal cavity, guarantees to seal The constancy of the intracorporal temperature of chamber；The pipe joint is connected to seal cavity, the rear end of the connecting pipe and pipe joint Connection, the front end of the connecting pipe is connect with nitrogen gas tank, for being passed through the nitrogen in nitrogen gas tank by connecting pipe to close Inside cavity is sealed, realizes the discharge to the intracorporal oxygen of seal chamber, realizes mold under the high-temperature operation state of seal cavity It is anti-oxidation, guarantee the Forming Quality of mold；Meanwhile the setting of heat insulating box, it is opposite to can be realized with traditional cabinet to sealing The sealing of cavity avoids the entrance of oxygen.

Curred glass forming machine provided by the utility model, the bend glass molding die oxidation are mounted on machine On the installation position of body, realize anti-oxidation function to mold under the intracorporal high-temperature operation state of seal chamber, guarantee mold at Type quality.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of bend glass molding die oxidation provided by the embodiment of the utility model.

Icon: 100- heat insulating box；101- seal cavity；102- pipe joint；103- thermal insulation board；104- sealing element； 105- opening；106- see-through window.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

In the description of the present invention, it should be noted that such as occur term " center ", "upper", "lower", " left side ", The orientation or positional relationship of the instructions such as " right side ", "vertical", "horizontal", "inner", "outside" is orientation based on the figure or position Relationship is merely for convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning must There must be specific orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.This Outside, such as there is term " first ", " second ", " third " are used for description purposes only, be not understood to indicate or imply relatively heavy The property wanted.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, such as there is term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one Connect to body；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, it can also be indirect by intermediary It is connected, can be the connection inside two elements.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

The utility model provides a kind of bend glass molding die oxidation, and the bend glass molding die is anti- Oxidation unit includes heat insulating box 100, connecting pipe and nitrogen gas tank；The sealing for placing mold is equipped in the heat insulating box 100 Cavity 101, the heat insulating box 100 is for separating seal cavity 101 and the external world；The heat insulating box 100 connects equipped with pipeline First 102, the pipe joint 102 is connected to seal cavity 101, and one end of the connecting pipe is connect with pipe joint 102, institute The other end for stating connecting pipe is connect with nitrogen gas tank, and the nitrogen in nitrogen gas tank is passed through to seal cavity 101.

As shown in Figure 1, bend glass molding die oxidation provided by the utility model, the heat insulating box 100 Be internally provided with the seal cavity 101 for placing mold, the heat insulating box 100 enable to seal cavity 101 and it is extraneous every It opens, guarantees the temperature inside seal cavity 101, realize the heating to mold；The top of the heat insulating box 100 is equipped with pipeline Connector 102, the pipe joint 102 are connected to seal cavity 101, and the bottom end of the connecting pipe is upper with pipe joint 102 End connection, the upper end of the connecting pipe are connected to nitrogen gas tank, and the nitrogen in nitrogen gas tank is passed by realization by connecting pipe In seal cavity 101, the oxygen in seal cavity 101 is discharged, nitrogen is inert gas, by discharge seal cavity 101 Oxygen, prevent the oxidation of the mold in seal cavity 101；Meanwhile heat insulating box 100 is set relative to existing simple thin The cabinet of wall increases the leakproofness of heat insulating box 100, also extra oxygen can be prevented to enter inside seal cavity 101, Guarantee the processing quality of mold during heating.

Further, the heat insulating box 100 includes thermal insulation board 103, the quantity of the thermal insulation board 103 be it is multiple, it is multiple Thermal insulation board 103 surrounds heat insulating box 100；The thermal insulation board 103 includes the first connecting plate, thermal insulation layer and the second connecting plate, described The connection of the side of first connecting plate and thermal insulation layer, the other side of the thermal insulation layer is connect with the second connecting plate.

As shown in Figure 1, the quantity of the thermal insulation board 103 be six, be followed successively by thermal insulation board, lower thermal insulation board, preceding thermal insulation board, Thermal insulation board, left thermal insulation board and right thermal insulation board afterwards, upper thermal insulation board, lower thermal insulation board, preceding thermal insulation board, rear thermal insulation board, left thermal insulation board and the right side Thermal insulation board surrounds heat insulating box 100, seal cavity 101 is formed, convenient for the hot briquetting of mold；Each thermal insulation board 103 wraps The first connecting plate, thermal insulation layer and the second connecting plate are included, the rear side of the first connecting plate and the front side of thermal insulation layer connect, after thermal insulation layer Side is connect with the second connecting plate, and specifically, the first connecting plate is steel plate, and the thermal insulation layer is silica gel plate, second connecting plate For stainless steel plate, the steel plate can guarantee the intensity of the whole structure of heat insulating box 100, and the silica gel plate realizes heat insulating box 100 heat insulating function, the stainless steel plate form certain protective effect to silica gel plate in the outermost of thermal insulation board 103, guarantee The stability of the whole structure of heat insulating box 100；Thermal insulation layer is set and realizes separating between seal cavity 101 and the external world, is guaranteed The holding of temperature in seal cavity 101.

It should be noted that the quantity of the thermal insulation board 103 can also for eight or more, as long as can surround heat-insulated The quantity of cabinet 100, specific thermal insulation board 103 can be depending on space needed for the molding of specific mold.

, can also be different it should also be noted that, the areas of multiple thermal insulation boards 103, shape can be identical, it can be according to specifically making Depending on situation.

Further, the pipe joint 102 and the junction for the thermal insulation board 103 for being equipped with pipe joint 102 are equipped with sealing Part 104.

As shown in Figure 1, the thermal insulation board 103 on the top of the heat insulating box 100 is equipped with pipe joint 102, the institute on top It states thermal insulation board 103 and 102 junction of pipe joint is equipped with sealing element 104, realize the sealing of pipe joint 102 and thermal insulation board 103, Avoid being fully sealed for seal cavity 101.

It should be noted that the outside of the thermal insulation board 103 on the top of the heat insulating box 100 can be arranged with silica gel outer, Realization is connect with facilitating for pipe joint 102.

It should also be noted that, the sealing element 104 quantity be it is multiple, multiple sealing elements 104 be connected to top every On hot plate 103, the thermal insulation board 103 to top and the complete sealing of pipe joint 102 are realized.

Further, at least opposite two thermal insulation boards 103 are equipped with the opening 105 being oppositely arranged.

As shown in Figure 1, the thermal insulation board 103 of the front side of the heat insulating box 100 is equipped with opening 105, the heat insulating box 100 It is equipped with opening 105 with the thermal insulation board 103 of rear side, in use, the opening of mold to be heated from the rear side of heat insulating box 100 105 flow into inside seal cavity 101, and the mold after heating flows out seal chamber from the opening 105 of the front side of heat insulating box 100 Inside body 101, the continuous service that the opening 105 being oppositely arranged realizes mold heating process is set.

Further, the sealing machine for being used to open or encapsulating opening 105 is equipped at the opening 105 of the thermal insulation board 103 Structure.

Packaging mechanism, the heat insulating box are equipped at the opening 105 of the thermal insulation board 103 of the front side of the heat insulating box 100 It also is provided with packaging mechanism at the opening 105 of the thermal insulation board 103 of 100 rear side, specifically, the packaging mechanism includes door body and drive The output end of motivation structure, driving mechanism is connect with door body, is to be flexibly connected at door body and opening 105, driving mechanism is cylinder；When Mold to be heated flows into inside seal cavity 101 from the opening 105 of the rear side of heat insulating box 100, and the mould after heating Tool behind the opening 105 of the front side of heat insulating box 100 outflow 101 inside of seal cavity, close, real by driving mechanism movement, door body Closing of the existing door body to opening 105, realizes the sealing of seal cavity 101.

It should be noted that the packaging mechanism is also possible to other structures, such as link mechanism and door body, pass through operation Link mechanism is realized to the opening of opening 105 and encapsulation etc., as long as being able to achieve the opening and encapsulation to opening 105.

It further, further include controller and position sensor；The position sensor is connect with controller, the control Device is connect with packaging mechanism, and the position sensor is used to incude mold heat to be added and heats the position of the mold finished, works as position When setting the mold outflow seal cavity 101 that sensor sensing is located in seal cavity 101 to mold heat to be added and heating finishes, institute It states position sensor and transmits a signal to controller, the controller controls the packaging mechanism and closes.

The controller is programmable controller, and the position sensor is photoelectric sensor, the controller and encapsulation The driving mechanism of mechanism connects, and the quantity of the photoelectric sensor is two, and a photoelectric sensor is located at the thermal insulation board of front side At 103 openings 105, another photoelectric sensor is located at the opening 105 of the thermal insulation board 103 of rear side, when the photoelectric sensing of rear side Device senses that mold to be heated is located inside seal cavity 101, and the photoelectric sensor of front side senses the mould that heating finishes When tool outflow 101 inside of seal cavity, photoelectric sensor transmits a signal to controller, and the controller controls the driving mechanism Starting, the driving mechanisms control door body are closed, and realize the sealing to seal cavity 101, complete the overall process of mold heating.

Further, the quantity of the pipe joint 102 is multiple, and multiple pipe joints 102 are evenly arranged on the hot box The outside of body 100.

As shown in Figure 1, the quantity of the pipe joint 102 be it is multiple, multiple pipe joints 102 are evenly arranged on heat insulating box On the thermal insulation board 103 of 100 upside, the connection of seal cavity 101 and multiple nitrogen gas tanks is realized, multiple nitrogen gas tanks are to seal cavity Nitrogen is passed through in 101 simultaneously, the oxygen in seal cavity 101 is more quickly discharged, prevents the mold in seal cavity 101 Oxidation, guarantees the processing quality of mold.

Further, the connecting pipe is equipped with flow control valve.

The connecting pipe is equipped with the flow control valve for adjusting nitrogen flow, realizes to being passed into seal cavity 101 Nitrogen flow adjusting, suitable for different operating conditions.

Further, the heat insulating box 100 is equipped with for observing the see-through window 106 inside heat insulating box 100.

As described in Figure 1, the thermal insulation board 103 on the right side of the heat insulating box 100 is equipped with see-through window 106, passes through perspective Window 106 is able to observe that the heating state of the mold inside heat insulating box 100, monitors in real time to mold, being capable of basis The processing situation of specific mold is specifically adjusted.

It should be noted that the see-through window 106 may also be arranged on the thermal insulation board 103 in the left side of heat insulating box 100, on The thermal insulation board 103 of side, the thermal insulation board 103 of front side, rear side thermal insulation board 103 on, alternatively, the see-through window 106 may be provided in On one or more for the thermal insulation board 103 stated, as long as being able to achieve to the observation inside heat insulating box 100.

Specifically, bend glass molding die oxidation provided by the utility model, when mold heat to be added is from rear side The opening 105 of thermal insulation board 103 flow into, heat the mold that finishes and flowed out from the opening 105 of the thermal insulation board 103 of front side, rear side Packaging mechanism work at the opening 105 of the thermal insulation board 103 of packaging mechanism and front side at the opening 105 of thermal insulation board 103, will be close The front side and rear side for sealing cavity 101 are fully sealed, and heating is started to work in seal cavity 101, pass through multiple pipe joints more than 102 It is constantly filled with to channel nitrogen, increase nitrogen is to reduce oxygen content in seal cavity 101, since nitrogen is inert gas, To realize that mold is in the anti-oxidation function of the intracavitary operation of high temperature modification in seal cavity 101.

The utility model additionally provides a kind of Curred glass forming machine, and the Curred glass forming machine includes body and as above The bend glass molding die oxidation；Installation position is equipped in the body, the bend glass molding die is anti- Oxidation unit is mounted on installation position.

Curred glass forming machine provided by the utility model, the bend glass molding die oxidation are mounted on machine On the installation position of body, realizes the anti-oxidation function to mold under the high-temperature operation state in seal cavity 101, guarantee mold Forming Quality.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of bend glass molding die oxidation, which is characterized in that including heat insulating box, connecting pipe and nitrogen Tank；

The heat insulating box is interior to be equipped with the seal cavity for placing mold, and the heat insulating box is for separating seal cavity and the external world； The heat insulating box is equipped with pipe joint, and the pipe joint is connected to seal cavity, one end of the connecting pipe and pipe The connection of road connector, the other end of the connecting pipe connect with nitrogen gas tank, the nitrogen in nitrogen gas tank are passed through to seal cavity It is interior.

2. bend glass molding die oxidation according to claim 1, which is characterized in that the heat insulating box packet Include thermal insulation board, the quantity of the thermal insulation board be it is multiple, multiple thermal insulation boards surround heat insulating box；

The thermal insulation board includes the first connecting plate, thermal insulation layer and the second connecting plate, the side of first connecting plate and thermal insulation layer Connection, the other side of the thermal insulation layer is connect with the second connecting plate.

3. bend glass molding die oxidation according to claim 2, which is characterized in that the pipe joint with The junction of thermal insulation board equipped with pipe joint is equipped with sealing element.

4. bend glass molding die oxidation according to claim 3, which is characterized in that at least opposite two The thermal insulation board is equipped with the opening being oppositely arranged.

5. bend glass molding die oxidation according to claim 4, which is characterized in that the thermal insulation board is opened The packaging mechanism for being used to open or encapsulating opening is equipped at mouthful.

6. bend glass molding die oxidation according to claim 5, which is characterized in that further include controller and Position sensor；

The position sensor is connect with controller, and the controller is connect with packaging mechanism, and the position sensor is for feeling The position for the mold for answering mold heat to be added and heating to finish, when position sensor senses that mold heat to be added is located in seal cavity And when heating the mold outflow seal cavity finished, the position sensor transmits a signal to controller, the controller control The packaging mechanism is closed.

7. bend glass molding die oxidation according to claim 1, which is characterized in that the pipe joint Quantity be it is multiple, multiple pipe joints are evenly arranged on the outside of the heat insulating box.

8. bend glass molding die oxidation according to claim 1, which is characterized in that on the connecting pipe Equipped with flow control valve.

9. bend glass molding die oxidation according to claim 1, which is characterized in that on the heat insulating box Equipped with for observing the see-through window inside heat insulating box.

10. a kind of Curred glass forming machine, which is characterized in that including body and bent as claimed in any one of claims 1-9 wherein Surface glass molding die oxidation；

Installation position is equipped in the body, the bend glass molding die oxidation is mounted on installation position.